Ambient noise level

In this article, we will explore in detail the impact of Ambient noise level on our modern society. Since its appearance, Ambient noise level has captured the attention of experts and the general public, generating debate, controversy and endless conflicting opinions. We will delve into its history, analyze its relevance in the current context and discuss possible future scenarios. Without a doubt, Ambient noise level has left a deep mark on our lives, and understanding its influence is crucial to understanding the world around us. Read on to find out everything you need to know about Ambient noise level.

Integrating Sound Level Meter

In atmospheric sounding and noise pollution, ambient noise level (sometimes called background noise level, reference sound level, or room noise level) is the background sound pressure level at a given location, normally specified as a reference level to study a new intrusive sound source.[1]

Ambient sound levels are often measured in order to map sound conditions over a spatial regime to understand their variation with locale.[2] In this case the product of the investigation is a sound level contour map.[3] Alternatively ambient noise levels may be measured to provide a reference point for analyzing an intrusive sound to a given environment. For example, sometimes aircraft noise is studied by measuring ambient sound without presence of any overflights, and then studying the noise addition by measurement or computer simulation of overflight events. Or roadway noise is measured as ambient sound, prior to introducing a hypothetical noise barrier intended to reduce that ambient noise level.

Ambient noise level is measured with a sound level meter.[4] It is usually measured in dB relative to a reference pressure of 0.00002 Pa, i.e., 20 μPa (micropascals) in SI units.[5] This is because 20 μPa is the faintest sound the human ear can detect.[5] A pascal is a newton per square meter. The centimeter-gram-second system of units, the reference sound pressure for measuring ambient noise level is 0.0002 dyn/cm2, or 0.00002 N/m2.[6] Most frequently ambient noise levels are measured using a frequency weighting filter, the most common being the A-weighting scale, such that resulting measurements are denoted dB(A), or decibels on the A-weighting scale.[4]

See also

References

  1. ^ "Sound and Vibration Instrument Hire and Calibration Background Noise Measurement". Gracey & Associates. Retrieved 22 October 2021.
  2. ^ Jonah, S.A; Baba-Kutigi, A.N; Uno, U.E; Dangana, M.L; Kolo, M.T; Ofor, N.P; Unuevho, C.I; Abba, F.M; Alhassan, D.U; Amadi, A.N; Umar, M.O; Kimpa, M.I (2011). "SPATIAL ANALYSIS AND GEOGRAPHICAL INFORMATION SYSTEM (GIS) MAPPING OF NOISE POLLUTION IN BOSSO LOCAL GOVERNMENT COUNCIL, NIGER STATE, NIGERIA". Environmental Technology & Science Journal. SCHOOL OF ENVIRONMENTAL TECHNOLOGY, FUT MINNA. ISSN 2006-0459.
  3. ^ Celik, Cahit Tagi; Guremen, Lale (2008). "Analytical Noise Contour Construction Using Inverse Square Law of Sound Propagation". Environmental Engineering & Management Journal. 7 (4): 423–426. Bibcode:2008EEMJ....7..423C. doi:10.30638/eemj.2008.061.
  4. ^ a b "What does dBA mean when someone talks about noise levels?". Nex Flow. November 6, 2018. Retrieved 22 October 2021.
  5. ^ a b "Decibels & Pascals". HeartAudio. Retrieved 22 October 2021.
  6. ^ "PRESSURE Units Conversion micropascals to newton-per-square-meter". Justin Tools. Retrieved 22 October 2021.

Public Domain This article incorporates public domain material from Federal Standard 1037C. General Services Administration. Archived from the original on 2022-01-22. (in support of MIL-STD-188).

Further reading